C-Phycocyanin (C-PC) represents an alternative to artificial blue/green dyes in food products. This study characterized and gained insights into C-PC thermal stability mechanisms and provided a model to estimate its thermal degradation. Aqueous solutions of C-PC (0.3 μM, pH:6.1) were isothermally heated at 45-80 °C. C-PC degradation was monitored based on the photophysical properties of its lumiphores (phycocyanobilins and aromatic aminoacids-AAs). While C-PC was stable at 45 °C, less than 10 min at 80 °C sufficed to degrade most of it. The thermal degradation curves were characterized using the Weibull model, which was validated with data obtained under non-isothermal conditions. Deviations between estimated and experimental values were lower than 8%. Hypsochromic shifts of the AAs' spectra (from 340 to 315 nm) and increase (>30%) in anisotropy at λexc = 280 and 520 nm suggest that colour losses are not solely associated with alterations of the chromophore but also with conformational changes and possible aggregation of the protein subunits.
Keywords: C-phycocyanin; Degradation kinetics; Dynamic heating; Luminescence spectroscopy; Photophysical properties; Thermal stability.
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